/* Dump registers. Copyright (C) 1998-2021 Free Software Foundation, Inc. This file is part of the GNU C Library. Contributed by Ulrich Drepper , 1998. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see . */ #include #include <_itoa.h> /* We will print the register dump in this format: EAX: XXXXXXXX EBX: XXXXXXXX ECX: XXXXXXXX EDX: XXXXXXXX ESI: XXXXXXXX EDI: XXXXXXXX EBP: XXXXXXXX ESP: XXXXXXXX EIP: XXXXXXXX EFLAGS: XXXXXXXX CS: XXXX DS: XXXX ES: XXXX FS: XXXX GS: XXXX SS: XXXX Trap: XXXXXXXX Error: XXXXXXXX OldMask: XXXXXXXX ESP/SIGNAL: XXXXXXXX CR2: XXXXXXXX FPUCW: XXXXXXXX FPUSW: XXXXXXXX TAG: XXXXXXXX IPOFF: XXXXXXXX CSSEL: XXXX DATAOFF: XXXXXXXX DATASEL: XXXX ST(0) XXXX XXXXXXXXXXXXXXXX ST(1) XXXX XXXXXXXXXXXXXXXX ST(2) XXXX XXXXXXXXXXXXXXXX ST(3) XXXX XXXXXXXXXXXXXXXX ST(4) XXXX XXXXXXXXXXXXXXXX ST(5) XXXX XXXXXXXXXXXXXXXX ST(6) XXXX XXXXXXXXXXXXXXXX ST(7) XXXX XXXXXXXXXXXXXXXX */ static void hexvalue (unsigned long int value, char *buf, size_t len) { char *cp = _itoa_word (value, buf + len, 16, 0); while (cp > buf) *--cp = '0'; } static void register_dump (int fd, struct ucontext_t *ctx) { char regs[21][8]; char fpregs[31][8]; struct iovec iov[97]; size_t nr = 0; #define ADD_STRING(str) \ iov[nr].iov_base = (char *) str; \ iov[nr].iov_len = strlen (str); \ ++nr #define ADD_MEM(str, len) \ iov[nr].iov_base = str; \ iov[nr].iov_len = len; \ ++nr /* Generate strings of register contents. */ hexvalue (ctx->uc_mcontext.gregs[REG_EAX], regs[0], 8); hexvalue (ctx->uc_mcontext.gregs[REG_EBX], regs[1], 8); hexvalue (ctx->uc_mcontext.gregs[REG_ECX], regs[2], 8); hexvalue (ctx->uc_mcontext.gregs[REG_EDX], regs[3], 8); hexvalue (ctx->uc_mcontext.gregs[REG_ESI], regs[4], 8); hexvalue (ctx->uc_mcontext.gregs[REG_EDI], regs[5], 8); hexvalue (ctx->uc_mcontext.gregs[REG_EBP], regs[6], 8); hexvalue (ctx->uc_mcontext.gregs[REG_ESP], regs[7], 8); hexvalue (ctx->uc_mcontext.gregs[REG_EIP], regs[8], 8); hexvalue (ctx->uc_flags, regs[9], 8); hexvalue (ctx->uc_mcontext.gregs[REG_CS], regs[10], 4); hexvalue (ctx->uc_mcontext.gregs[REG_DS], regs[11], 4); hexvalue (ctx->uc_mcontext.gregs[REG_ES], regs[12], 4); hexvalue (ctx->uc_mcontext.gregs[REG_FS], regs[13], 4); hexvalue (ctx->uc_mcontext.gregs[REG_GS], regs[14], 4); hexvalue (ctx->uc_mcontext.gregs[REG_SS], regs[15], 4); hexvalue (ctx->uc_mcontext.gregs[REG_TRAPNO], regs[16], 8); hexvalue (ctx->uc_mcontext.gregs[REG_ERR], regs[17], 8); hexvalue (ctx->uc_mcontext.oldmask, regs[18], 8); hexvalue (ctx->uc_mcontext.gregs[REG_UESP], regs[19], 8); hexvalue (ctx->uc_mcontext.cr2, regs[20], 8); /* Generate the output. */ ADD_STRING ("Register dump:\n\n EAX: "); ADD_MEM (regs[0], 8); ADD_STRING (" EBX: "); ADD_MEM (regs[1], 8); ADD_STRING (" ECX: "); ADD_MEM (regs[2], 8); ADD_STRING (" EDX: "); ADD_MEM (regs[3], 8); ADD_STRING ("\n ESI: "); ADD_MEM (regs[4], 8); ADD_STRING (" EDI: "); ADD_MEM (regs[5], 8); ADD_STRING (" EBP: "); ADD_MEM (regs[6], 8); ADD_STRING (" ESP: "); ADD_MEM (regs[7], 8); ADD_STRING ("\n\n EIP: "); ADD_MEM (regs[8], 8); ADD_STRING (" EFLAGS: "); ADD_MEM (regs[9], 8); ADD_STRING ("\n\n CS: "); ADD_MEM (regs[10], 4); ADD_STRING (" DS: "); ADD_MEM (regs[11], 4); ADD_STRING (" ES: "); ADD_MEM (regs[12], 4); ADD_STRING (" FS: "); ADD_MEM (regs[13], 4); ADD_STRING (" GS: "); ADD_MEM (regs[14], 4); ADD_STRING (" SS: "); ADD_MEM (regs[15], 4); ADD_STRING ("\n\n Trap: "); ADD_MEM (regs[16], 8); ADD_STRING (" Error: "); ADD_MEM (regs[17], 8); ADD_STRING (" OldMask: "); ADD_MEM (regs[18], 8); ADD_STRING ("\n ESP/signal: "); ADD_MEM (regs[19], 8); ADD_STRING (" CR2: "); ADD_MEM (regs[20], 8); /* Generate output for the FPU control/status registers. */ hexvalue (ctx->__fpregs_mem.cw, fpregs[0], 8); hexvalue (ctx->__fpregs_mem.sw, fpregs[1], 8); hexvalue (ctx->__fpregs_mem.tag, fpregs[2], 8); hexvalue (ctx->__fpregs_mem.ipoff, fpregs[3], 8); hexvalue (ctx->__fpregs_mem.cssel, fpregs[4], 4); hexvalue (ctx->__fpregs_mem.dataoff, fpregs[5], 8); hexvalue (ctx->__fpregs_mem.datasel, fpregs[6], 4); ADD_STRING ("\n\n FPUCW: "); ADD_MEM (fpregs[0], 8); ADD_STRING (" FPUSW: "); ADD_MEM (fpregs[1], 8); ADD_STRING (" TAG: "); ADD_MEM (fpregs[2], 8); ADD_STRING ("\n IPOFF: "); ADD_MEM (fpregs[3], 8); ADD_STRING (" CSSEL: "); ADD_MEM (fpregs[4], 4); ADD_STRING (" DATAOFF: "); ADD_MEM (fpregs[5], 8); ADD_STRING (" DATASEL: "); ADD_MEM (fpregs[6], 4); /* Now the real FPU registers. */ hexvalue (ctx->__fpregs_mem._st[0].exponent, fpregs[7], 8); hexvalue (ctx->__fpregs_mem._st[0].significand[3] << 16 | ctx->__fpregs_mem._st[0].significand[2], fpregs[8], 8); hexvalue (ctx->__fpregs_mem._st[0].significand[1] << 16 | ctx->__fpregs_mem._st[0].significand[0], fpregs[9], 8); hexvalue (ctx->__fpregs_mem._st[1].exponent, fpregs[10], 8); hexvalue (ctx->__fpregs_mem._st[1].significand[3] << 16 | ctx->__fpregs_mem._st[1].significand[2], fpregs[11], 8); hexvalue (ctx->__fpregs_mem._st[1].significand[1] << 16 | ctx->__fpregs_mem._st[1].significand[0], fpregs[12], 8); hexvalue (ctx->__fpregs_mem._st[2].exponent, fpregs[13], 8); hexvalue (ctx->__fpregs_mem._st[2].significand[3] << 16 | ctx->__fpregs_mem._st[2].significand[2], fpregs[14], 8); hexvalue (ctx->__fpregs_mem._st[2].significand[1] << 16 | ctx->__fpregs_mem._st[2].significand[0], fpregs[15], 8); hexvalue (ctx->__fpregs_mem._st[3].exponent, fpregs[16], 8); hexvalue (ctx->__fpregs_mem._st[3].significand[3] << 16 | ctx->__fpregs_mem._st[3].significand[2], fpregs[17], 8); hexvalue (ctx->__fpregs_mem._st[3].significand[1] << 16 | ctx->__fpregs_mem._st[3].significand[0], fpregs[18], 8); hexvalue (ctx->__fpregs_mem._st[4].exponent, fpregs[19], 8); hexvalue (ctx->__fpregs_mem._st[4].significand[3] << 16 | ctx->__fpregs_mem._st[4].significand[2], fpregs[20], 8); hexvalue (ctx->__fpregs_mem._st[4].significand[1] << 16 | ctx->__fpregs_mem._st[4].significand[0], fpregs[21], 8); hexvalue (ctx->__fpregs_mem._st[5].exponent, fpregs[22], 8); hexvalue (ctx->__fpregs_mem._st[5].significand[3] << 16 | ctx->__fpregs_mem._st[5].significand[2], fpregs[23], 8); hexvalue (ctx->__fpregs_mem._st[5].significand[1] << 16 | ctx->__fpregs_mem._st[5].significand[0], fpregs[24], 8); hexvalue (ctx->__fpregs_mem._st[6].exponent, fpregs[25], 8); hexvalue (ctx->__fpregs_mem._st[6].significand[3] << 16 | ctx->__fpregs_mem._st[6].significand[2], fpregs[26], 8); hexvalue (ctx->__fpregs_mem._st[6].significand[1] << 16 | ctx->__fpregs_mem._st[6].significand[0], fpregs[27], 8); hexvalue (ctx->__fpregs_mem._st[7].exponent, fpregs[28], 8); hexvalue (ctx->__fpregs_mem._st[7].significand[3] << 16 | ctx->__fpregs_mem._st[7].significand[2], fpregs[29], 8); hexvalue (ctx->__fpregs_mem._st[7].significand[1] << 16 | ctx->__fpregs_mem._st[7].significand[0], fpregs[30], 8); ADD_STRING ("\n\n ST(0) "); ADD_MEM (fpregs[7], 4); ADD_STRING (" "); ADD_MEM (fpregs[8], 8); ADD_MEM (fpregs[9], 8); ADD_STRING (" ST(1) "); ADD_MEM (fpregs[10], 4); ADD_STRING (" "); ADD_MEM (fpregs[11], 8); ADD_MEM (fpregs[12], 8); ADD_STRING ("\n ST(2) "); ADD_MEM (fpregs[13], 4); ADD_STRING (" "); ADD_MEM (fpregs[14], 8); ADD_MEM (fpregs[15], 8); ADD_STRING (" ST(3) "); ADD_MEM (fpregs[16], 4); ADD_STRING (" "); ADD_MEM (fpregs[17], 8); ADD_MEM (fpregs[18], 8); ADD_STRING ("\n ST(4) "); ADD_MEM (fpregs[19], 4); ADD_STRING (" "); ADD_MEM (fpregs[20], 8); ADD_MEM (fpregs[21], 8); ADD_STRING (" ST(5) "); ADD_MEM (fpregs[22], 4); ADD_STRING (" "); ADD_MEM (fpregs[23], 8); ADD_MEM (fpregs[24], 8); ADD_STRING ("\n ST(6) "); ADD_MEM (fpregs[25], 4); ADD_STRING (" "); ADD_MEM (fpregs[26], 8); ADD_MEM (fpregs[27], 8); ADD_STRING (" ST(7) "); ADD_MEM (fpregs[28], 4); ADD_STRING (" "); ADD_MEM (fpregs[29], 8); ADD_MEM (fpregs[30], 8); ADD_STRING ("\n"); /* Write the stuff out. */ writev (fd, iov, nr); } #define REGISTER_DUMP register_dump (fd, ctx)